Kajian Performansi Pengering Surya Metode Tidak Langsung (Indirect Solar Dryer) Kolektor Plat Datar Bersirip
DAFTAR PUSTAKA
[1]
Arta, I Ketut Guna. “Analisa Numerik Sistem Pengeringan Daging dengan
Menggunakan Alat Pengering Energi Surya”. Tesis Universitas Udayana.
2014.
[2]
Fuller, R. J. “Solar Drying-A Technology for Sustainable Agriculture and
Food Production”. University of Melbourne. 2009.
[3]
Sharma, Atul., Cehn, C. R., and Nguyen Vu Lan. “Solar-energy drying
systems : A review”. Renewable and Sustainable Energy Reviews :1185–
1210. 2009.
[4]
Dina, Sari Farah., Napitupulu, Farel H., and Ambarita, Himsar. “Efektifitas
pengeringan kontinu Biji Kakao Indonesia Menggunakan Energi Surya dan
Termokimia”. Seminar Nasional Teknologi Industri Hijau. 2014.
[5]
Murthy, M.V. Ramana. “A review of new technologies, models and
experimental investigations of solar driers”. Renewable and Sustainable
Energy Reviews 13: 835–844. 2009.
[6]
Bal, Lalit M., Satya, Santosh., and Naik, S.N.. “Solar dryer with thermal
energy storage systems for drying agricultural food products: A review”.
Renewable and Sustainable Energy Reviews. 2010.
[7]
Bolaji, Bukola O. and Ayoola P. Olalusi. “Performance Evaluation of a
Mixed-Mode Solar Dryer”. AU J.T. 11(4): 225-231. 2008.
[8]
Saravanakumar, P. T. And K. Mayilsamy. “Forced convection flat plate solar
air heaters with and without thermal storage”. Journal of the Scientific &
Industrial Research Vol 69:966–968. 2010.
[9]
Azimi, Alireza., Touraj Tavakoli., Hamid Khademhosseini Beheshti., and
Amir Rahimia “Experimental Study on Eggplant Drying by an Indirect Solar
Dryer and Open Sun Drying”. Iranica Journal of Energy & Environment 3
(4): 348-354 ISSN 2079-2115. 2012.
[10]
Aissa, Walid., Mostafa El-Sallak., and Ahmed Elhakem. “An Experimental
Investigation of Forced Convection Flat Plate Solar Air Heater with Storage
Material”. Thermal Science Vol. 16 No. 4:1105-1116. 2012.
[11]
Arikundo, Fadly Rian dan Mulfi Hazwi. “Rancang Bangun Prototype
Kolektor Surya tipe Plat Datar untuk Penghasil Panas pada Pengering Produk
Pertanian dan Perkebunan”. Jurnal e-Dinamis Volume. 8 No.4, ISSN 23381035. 2014.
45
Universitas Sumatera Utara
[12]
Belessiotis, V. and Delyannis, E. “Solar drying”. Solar Energy 85: 1665–
1691. 2011.
[13]
Yani, Endri., Abdurrachim., dan Pratoto, Ajar. “Analisis Efisiensi
Pengeringan Ikan Nila pada Pengering Surya Aktif Tidak Langsung”. ISSN:
0854-8471, No. 31, Vol.2, Thn. XVI. 2009.
[14]
Putri, Renny Eka., Santosa., Azrifirwan., Mislaini., dan Pranata, Dede.
“Introduksi Mini Solar Dryer untuk Pemberdayaan Wanita Nelayan dalam
Usaha Pengeringan Ikan di Bungus Teluk Kabung Kota Padang”. Warta
Pengabdian Andalas Volume XIV, Nomor 20. 2008.
[15]
Deshmukh, A. Waheed., Varma, Mahesh N., Chang Kyoo Yoo., and
Wasewar, Kailas L.“Investigation of Solar Drying of Ginger (Zingiber
officinale): Emprical Modelling, Drying Characteristics, and Quality
Study”. Chinese Journal of Engineering Volume 2014, Article ID 305823, 7
pages. 2014.
[16]
Hii, C. L., Law, C. L., and Cloke, M. “Modelling of Thin Layer Drying
Kinetics of Cocoa Beans during Artificial and Natural Drying”. Journal of
Engineering Science and Technology Vol. 3, No. 1:1 – 10. 2008.
[17]
Salomo, Ginting, M., dan Akbar, R. “Pembuatan Alat Pengering Surya untuk
Hasil
Pertanian
Menggunakan
Kolektor
Berpenutup
Prisma
Segitiga”. JURNAL APTEK Vol. 5 No. 2. 2013.
[18]
Burlian Firmansyah., dan Firdaus, Aneka. “Kaji Eksperimental Alat
Pengering Kerupuk Tenaga Surya Tipe Box Menggunakan Kosentrator
Cermin Datar”. ISBN : 979-587-395-4. 2011.
[19]
Anwar, Hizami Ch., Lanya, Budiyanto., Haryanto, Agus., dan Tamrin.
“Rancang Bangun Alat Pengering Energi Surya dengan Kolektor Keping
Datar”. Jurnal Teknik Pertanian Lampung Vol. 1, No. 1: 29-36. 2012.
[20]
Fudholi, A., Othman, M. Y., Ruslan, M. H., Yahya, M., Zaharim, A., and
Sopian, K. “Design and Testing of Solar Dryer for Drying Kinetics of
Seaweed in Malaysia”. Recent Researches in Geography, Geology, Energy,
Environment and Biomedicine. 2011.
[21]
Hii, C. L., Jangam, S. V., Ong, S. P., and Mujumdar, A. S. “Solar Drying :
Fundamentals, Applications and Innovations”. ISBN: 978-981-07-3336-0.
2012.
[22]
Arikundo, Fadly Rian. “Rancang Bangun Prototype Kolektor Surya Tipe Plat
Datar untuk Penghasil Panas pada Pengering Produk Pertanian dan
Perkebunan”. Skripsi Teknik Mesin Universitas Sumatera Utara. 2013.
46
Universitas Sumatera Utara
[23]
Rosa, Yazmendra., Maimuzar., dan Safril. “Pengeringan Gambir dengan
Memanfaatkan Engeri Surya”. Jurnal Teknik Mesin, ISSN 1829-8958, Vol. 3,
No. 1. 2006.
[24]
Sijabat, Andri M. “Rancang Bangun dan Analisa Kolektor Surya Tipe Plat
Datar Bersirip Penghasil Panas pada Pengering Produk Pertanian dan
Perkebunan”. Skripsi Teknik Mesin Universitas Sumatera Utara. 2014.
[25]
Holman, J. P. 2010. Heat Transfer. Higher Education.Tenth Edition. McGraw
Hill : New York.
[26]
Incropera, Frank P., David P. Dewitt. 1985. Fundamentals of Heat and Mass
Transfer, Second Edition. John Wiley & Sons Inc. : New York.
[27]
Duffie, John A., William A. Beckman. 1980. Solar Engineering of Thermal
Processes, Second Edition. John Wiley & Sons Inc. : New York.
[28]
Struckmann, Fabio. Analysis of a Flat-plate Solar Collector. Project Report
Heat and Mass Transport Department of Energy Sciences Lund University,
Sweden. 2008.
[29]
Putra, Ismet Eka., Pitri Hadi. Analisa Efisiensi Alat Pengering Tenaga Surya
Tipe Terowong Berbantukan Kipas Angin pada Proses Pengeringan Biji
Kopi. Jurnal Teknik Mesin ITP Vol. 3, No.2. 2013 : 22-25.
[30]
Anwar, Hizami Ch., Budianto Lanya., Agus Haryanto., Tamrin. Rancang
Bangun Alat Pengering Energi Surya dengan Kolektor Keping Datar (The
Design of Solar Drying Tool with a Flat Chip Collectors). Jurnal Teknik
Pertanian Lampung-Vol 1, No.1. 2012 : 29-36.
[31]
Sulaeman., Darul Mapasid. Analisa Efisiensi Kolektor Surya Tipe Plat Datar
dengan Debit Aliran Fluida 3-10 Liter/Menit. Jurnal Teknik Mesin ITP Vol.
3, No.1. 2013 : 29-32.
47
Universitas Sumatera Utara
[1]
Arta, I Ketut Guna. “Analisa Numerik Sistem Pengeringan Daging dengan
Menggunakan Alat Pengering Energi Surya”. Tesis Universitas Udayana.
2014.
[2]
Fuller, R. J. “Solar Drying-A Technology for Sustainable Agriculture and
Food Production”. University of Melbourne. 2009.
[3]
Sharma, Atul., Cehn, C. R., and Nguyen Vu Lan. “Solar-energy drying
systems : A review”. Renewable and Sustainable Energy Reviews :1185–
1210. 2009.
[4]
Dina, Sari Farah., Napitupulu, Farel H., and Ambarita, Himsar. “Efektifitas
pengeringan kontinu Biji Kakao Indonesia Menggunakan Energi Surya dan
Termokimia”. Seminar Nasional Teknologi Industri Hijau. 2014.
[5]
Murthy, M.V. Ramana. “A review of new technologies, models and
experimental investigations of solar driers”. Renewable and Sustainable
Energy Reviews 13: 835–844. 2009.
[6]
Bal, Lalit M., Satya, Santosh., and Naik, S.N.. “Solar dryer with thermal
energy storage systems for drying agricultural food products: A review”.
Renewable and Sustainable Energy Reviews. 2010.
[7]
Bolaji, Bukola O. and Ayoola P. Olalusi. “Performance Evaluation of a
Mixed-Mode Solar Dryer”. AU J.T. 11(4): 225-231. 2008.
[8]
Saravanakumar, P. T. And K. Mayilsamy. “Forced convection flat plate solar
air heaters with and without thermal storage”. Journal of the Scientific &
Industrial Research Vol 69:966–968. 2010.
[9]
Azimi, Alireza., Touraj Tavakoli., Hamid Khademhosseini Beheshti., and
Amir Rahimia “Experimental Study on Eggplant Drying by an Indirect Solar
Dryer and Open Sun Drying”. Iranica Journal of Energy & Environment 3
(4): 348-354 ISSN 2079-2115. 2012.
[10]
Aissa, Walid., Mostafa El-Sallak., and Ahmed Elhakem. “An Experimental
Investigation of Forced Convection Flat Plate Solar Air Heater with Storage
Material”. Thermal Science Vol. 16 No. 4:1105-1116. 2012.
[11]
Arikundo, Fadly Rian dan Mulfi Hazwi. “Rancang Bangun Prototype
Kolektor Surya tipe Plat Datar untuk Penghasil Panas pada Pengering Produk
Pertanian dan Perkebunan”. Jurnal e-Dinamis Volume. 8 No.4, ISSN 23381035. 2014.
45
Universitas Sumatera Utara
[12]
Belessiotis, V. and Delyannis, E. “Solar drying”. Solar Energy 85: 1665–
1691. 2011.
[13]
Yani, Endri., Abdurrachim., dan Pratoto, Ajar. “Analisis Efisiensi
Pengeringan Ikan Nila pada Pengering Surya Aktif Tidak Langsung”. ISSN:
0854-8471, No. 31, Vol.2, Thn. XVI. 2009.
[14]
Putri, Renny Eka., Santosa., Azrifirwan., Mislaini., dan Pranata, Dede.
“Introduksi Mini Solar Dryer untuk Pemberdayaan Wanita Nelayan dalam
Usaha Pengeringan Ikan di Bungus Teluk Kabung Kota Padang”. Warta
Pengabdian Andalas Volume XIV, Nomor 20. 2008.
[15]
Deshmukh, A. Waheed., Varma, Mahesh N., Chang Kyoo Yoo., and
Wasewar, Kailas L.“Investigation of Solar Drying of Ginger (Zingiber
officinale): Emprical Modelling, Drying Characteristics, and Quality
Study”. Chinese Journal of Engineering Volume 2014, Article ID 305823, 7
pages. 2014.
[16]
Hii, C. L., Law, C. L., and Cloke, M. “Modelling of Thin Layer Drying
Kinetics of Cocoa Beans during Artificial and Natural Drying”. Journal of
Engineering Science and Technology Vol. 3, No. 1:1 – 10. 2008.
[17]
Salomo, Ginting, M., dan Akbar, R. “Pembuatan Alat Pengering Surya untuk
Hasil
Pertanian
Menggunakan
Kolektor
Berpenutup
Prisma
Segitiga”. JURNAL APTEK Vol. 5 No. 2. 2013.
[18]
Burlian Firmansyah., dan Firdaus, Aneka. “Kaji Eksperimental Alat
Pengering Kerupuk Tenaga Surya Tipe Box Menggunakan Kosentrator
Cermin Datar”. ISBN : 979-587-395-4. 2011.
[19]
Anwar, Hizami Ch., Lanya, Budiyanto., Haryanto, Agus., dan Tamrin.
“Rancang Bangun Alat Pengering Energi Surya dengan Kolektor Keping
Datar”. Jurnal Teknik Pertanian Lampung Vol. 1, No. 1: 29-36. 2012.
[20]
Fudholi, A., Othman, M. Y., Ruslan, M. H., Yahya, M., Zaharim, A., and
Sopian, K. “Design and Testing of Solar Dryer for Drying Kinetics of
Seaweed in Malaysia”. Recent Researches in Geography, Geology, Energy,
Environment and Biomedicine. 2011.
[21]
Hii, C. L., Jangam, S. V., Ong, S. P., and Mujumdar, A. S. “Solar Drying :
Fundamentals, Applications and Innovations”. ISBN: 978-981-07-3336-0.
2012.
[22]
Arikundo, Fadly Rian. “Rancang Bangun Prototype Kolektor Surya Tipe Plat
Datar untuk Penghasil Panas pada Pengering Produk Pertanian dan
Perkebunan”. Skripsi Teknik Mesin Universitas Sumatera Utara. 2013.
46
Universitas Sumatera Utara
[23]
Rosa, Yazmendra., Maimuzar., dan Safril. “Pengeringan Gambir dengan
Memanfaatkan Engeri Surya”. Jurnal Teknik Mesin, ISSN 1829-8958, Vol. 3,
No. 1. 2006.
[24]
Sijabat, Andri M. “Rancang Bangun dan Analisa Kolektor Surya Tipe Plat
Datar Bersirip Penghasil Panas pada Pengering Produk Pertanian dan
Perkebunan”. Skripsi Teknik Mesin Universitas Sumatera Utara. 2014.
[25]
Holman, J. P. 2010. Heat Transfer. Higher Education.Tenth Edition. McGraw
Hill : New York.
[26]
Incropera, Frank P., David P. Dewitt. 1985. Fundamentals of Heat and Mass
Transfer, Second Edition. John Wiley & Sons Inc. : New York.
[27]
Duffie, John A., William A. Beckman. 1980. Solar Engineering of Thermal
Processes, Second Edition. John Wiley & Sons Inc. : New York.
[28]
Struckmann, Fabio. Analysis of a Flat-plate Solar Collector. Project Report
Heat and Mass Transport Department of Energy Sciences Lund University,
Sweden. 2008.
[29]
Putra, Ismet Eka., Pitri Hadi. Analisa Efisiensi Alat Pengering Tenaga Surya
Tipe Terowong Berbantukan Kipas Angin pada Proses Pengeringan Biji
Kopi. Jurnal Teknik Mesin ITP Vol. 3, No.2. 2013 : 22-25.
[30]
Anwar, Hizami Ch., Budianto Lanya., Agus Haryanto., Tamrin. Rancang
Bangun Alat Pengering Energi Surya dengan Kolektor Keping Datar (The
Design of Solar Drying Tool with a Flat Chip Collectors). Jurnal Teknik
Pertanian Lampung-Vol 1, No.1. 2012 : 29-36.
[31]
Sulaeman., Darul Mapasid. Analisa Efisiensi Kolektor Surya Tipe Plat Datar
dengan Debit Aliran Fluida 3-10 Liter/Menit. Jurnal Teknik Mesin ITP Vol.
3, No.1. 2013 : 29-32.
47
Universitas Sumatera Utara